Abstract
This study presents design approach for realizing miniaturized Substrate Integrated Waveguide (SIW) Band Pass Filter (BPF) using Low Temperature Co-fired Ceramic (LTCC) technology at TMRND's LTCC Lab. Design method for the SIW BPF is based on the circular cavity structure with four pole Chebyshev and operating at center frequency of 38 GHz. This SIW BPF is an important part of the Remote Antenna Unit (RAU) transceiver for the Radio over Fiber (RoF) system. Two types of circular SIW BPF have been designed and investigated in term of performance and structure size which are planar SIW BPF and compact SIW BPF. Both SIW BPF were developed using LTCC Ferro A6M materials with dielectric constant of 5.8, loss tangent of 0.002 and metallization of gold. The insertion loss for planar SIW BPF and compact SIW BPF were measured at 6.2 dB and 6.3 dB, respectively. The passband return losses for both types of the SIW BPF were measured at more than 10 dB. The size of the compact SIW BPF is 6.94×6.94 mm<sup>2</sup> meanwhile size for planar SIW BPF is 12.15×4.145 mm<sup>2</sup>. The size of the compact SIW BPF is reduced to nearly 10% compared to a planar SIW BPF structure.
Highlights
A band pass filter is a key component for passive element in Remote Antenna Unit (RAU) transceiver for Radio over Fiber (RoF) systems
Design method for the Substrate Integrated Waveguide (SIW) Band Pass Filter (BPF) is based on the circular cavity structure with four pole Chebyshev and operating at center frequency of 38 GHz
The proposed planar and compact SIW BPF with 4 pole Chebyshev filter exhibits the passband of 37-39 GHz
Summary
A band pass filter is a key component for passive element in Remote Antenna Unit (RAU) transceiver for Radio over Fiber (RoF) systems. In regard tominiaturized which combine performance of circular Substrate Integrated Waveguide (SIW) Band Pass Filter (BPF) using Low Temperature Co-fired Ceramic (LTCC) technology was proposed.
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